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Hydration and Compressive Strength of Blended Cement Containing Fly Ash and Limestone as Cement Replacement |
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APA | Hydration and Compressive Strength of Blended Cement Containing Fly Ash and Limestone as Cement Replacement. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Hydration and Compressive Strength of Blended Cement Containing Fly Ash and Limestone as Cement Replacement". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Hydration and Compressive Strength of Blended Cement Containing Fly Ash and Limestone as Cement Replacement. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Hydration and Compressive Strength of Blended Cement Containing Fly Ash and Limestone as Cement Replacement" Journal of Materials in Civil Engineering, (): . | ||||
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Adherence Energy of Asphalt Thin Films Measured by Force-Displacement Atomic Force Microscopy |
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APA | Adherence Energy of Asphalt Thin Films Measured by Force-Displacement Atomic Force Microscopy. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Adherence Energy of Asphalt Thin Films Measured by Force-Displacement Atomic Force Microscopy". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Adherence Energy of Asphalt Thin Films Measured by Force-Displacement Atomic Force Microscopy. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Adherence Energy of Asphalt Thin Films Measured by Force-Displacement Atomic Force Microscopy" Journal of Materials in Civil Engineering, (): . | ||||
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Zhiyong Liu, Yunsheng Zhang, Qian Jiang |
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APA | Zhiyong Liu, Yunsheng Zhang, Qian Jiang. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Zhiyong Liu, Yunsheng Zhang, Qian Jiang ". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Zhiyong Liu, Yunsheng Zhang, Qian Jiang. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Zhiyong Liu, Yunsheng Zhang, Qian Jiang" Journal of Materials in Civil Engineering, (): . | ||||
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Mitigation of Detrimental Effects of Alkali-Silica Reaction in Cement-Based Composites by Combination of Steel Microfibers and Ground-Granulated Blast-Furnace Slag |
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APA | Mitigation of Detrimental Effects of Alkali-Silica Reaction in Cement-Based Composites by Combination of Steel Microfibers and Ground-Granulated Blast-Furnace Slag. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Mitigation of Detrimental Effects of Alkali-Silica Reaction in Cement-Based Composites by Combination of Steel Microfibers and Ground-Granulated Blast-Furnace Slag". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Mitigation of Detrimental Effects of Alkali-Silica Reaction in Cement-Based Composites by Combination of Steel Microfibers and Ground-Granulated Blast-Furnace Slag. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Mitigation of Detrimental Effects of Alkali-Silica Reaction in Cement-Based Composites by Combination of Steel Microfibers and Ground-Granulated Blast-Furnace Slag" Journal of Materials in Civil Engineering, (): . | ||||
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Composites and FRP-Strengthened Beams Subjected to Dry/Wet and Salt Fog Cycles |
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APA | Composites and FRP-Strengthened Beams Subjected to Dry/Wet and Salt Fog Cycles . Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Composites and FRP-Strengthened Beams Subjected to Dry/Wet and Salt Fog Cycles". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Composites and FRP-Strengthened Beams Subjected to Dry/Wet and Salt Fog Cycles . Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Composites and FRP-Strengthened Beams Subjected to Dry/Wet and Salt Fog Cycles" Journal of Materials in Civil Engineering, (): . | ||||
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Strength and Deformation Characteristics of Fly Ash Mixed with Randomly Distributed Plastic Waste |
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APA | Strength and Deformation Characteristics of Fly Ash Mixed with Randomly Distributed Plastic Waste. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Strength and Deformation Characteristics of Fly Ash Mixed with Randomly Distributed Plastic Waste". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Strength and Deformation Characteristics of Fly Ash Mixed with Randomly Distributed Plastic Waste. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Strength and Deformation Characteristics of Fly Ash Mixed with Randomly Distributed Plastic Waste" Journal of Materials in Civil Engineering, (): . | ||||
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Factors Affecting Improvement of Engineering Properties of MICP-Treated Soil Catalyzed by Bacteria and Urease |
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APA | Factors Affecting Improvement of Engineering Properties of MICP-Treated Soil Catalyzed by Bacteria and Urease. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Factors Affecting Improvement of Engineering Properties of MICP-Treated Soil Catalyzed by Bacteria and Urease". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Factors Affecting Improvement of Engineering Properties of MICP-Treated Soil Catalyzed by Bacteria and Urease. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Factors Affecting Improvement of Engineering Properties of MICP-Treated Soil Catalyzed by Bacteria and Urease" Journal of Materials in Civil Engineering, (): . | ||||
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Appropriate Mesh Design for Predicting Complete Fracture Behavior of Wires for Civil Engineering Applications |
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APA | Appropriate Mesh Design for Predicting Complete Fracture Behavior of Wires for Civil Engineering Applications. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Appropriate Mesh Design for Predicting Complete Fracture Behavior of Wires for Civil Engineering Applications". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Appropriate Mesh Design for Predicting Complete Fracture Behavior of Wires for Civil Engineering Applications. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Appropriate Mesh Design for Predicting Complete Fracture Behavior of Wires for Civil Engineering Applications" Journal of Materials in Civil Engineering, (): . | ||||
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Performance Evaluation of an Eco-Binder Made with Slag and CFBC Fly Ash |
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APA | Performance Evaluation of an Eco-Binder Made with Slag and CFBC Fly Ash. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Performance Evaluation of an Eco-Binder Made with Slag and CFBC Fly Ash". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Performance Evaluation of an Eco-Binder Made with Slag and CFBC Fly Ash. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Performance Evaluation of an Eco-Binder Made with Slag and CFBC Fly Ash" Journal of Materials in Civil Engineering, (): . | ||||
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Newly Developed Adhesive Strength Test for Measuring the Strength of Sealant between Joints of Concrete Pavement |
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APA | Newly Developed Adhesive Strength Test for Measuring the Strength of Sealant between Joints of Concrete Pavement. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Newly Developed Adhesive Strength Test for Measuring the Strength of Sealant between Joints of Concrete Pavement". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Newly Developed Adhesive Strength Test for Measuring the Strength of Sealant between Joints of Concrete Pavement. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Newly Developed Adhesive Strength Test for Measuring the Strength of Sealant between Joints of Concrete Pavement " Journal of Materials in Civil Engineering, (): . | ||||
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Predicting the Flexure Response of Wood-Plastic Composites from Uni-Axial and Shear Data Using a Finite-Element Model |
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APA | Predicting the Flexure Response of Wood-Plastic Composites from Uni-Axial and Shear Data Using a Finite-Element Model. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Predicting the Flexure Response of Wood-Plastic Composites from Uni-Axial and Shear Data Using a Finite-Element Model". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Predicting the Flexure Response of Wood-Plastic Composites from Uni-Axial and Shear Data Using a Finite-Element Model. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Predicting the Flexure Response of Wood-Plastic Composites from Uni-Axial and Shear Data Using a Finite-Element Model" Journal of Materials in Civil Engineering, (): . | ||||
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Engineering Physical Properties of Asphalt Binders through Nanoclay–Asphalt Interactions |
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APA | Engineering Physical Properties of Asphalt Binders through Nanoclay–Asphalt Interactions. Journal of Materials in Civil Engineering , , . | ||||
MLA | . "Engineering Physical Properties of Asphalt Binders through Nanoclay–Asphalt Interactions". Journal of Materials in Civil Engineering : . | ||||
Harvard | , . Engineering Physical Properties of Asphalt Binders through Nanoclay–Asphalt Interactions. Journal of Materials in Civil Engineering, , . | ||||
Chicago | . "Engineering Physical Properties of Asphalt Binders through Nanoclay–Asphalt Interactions" Journal of Materials in Civil Engineering, (): . |